| /******************************************************************** |
| * COPYRIGHT: |
| * Copyright (c) 1997-2014, International Business Machines Corporation and |
| * others. All Rights Reserved. |
| ********************************************************************/ |
| |
| #include "unicode/utypes.h" |
| |
| #if !UCONFIG_NO_NORMALIZATION |
| |
| #include "unicode/uchar.h" |
| #include "unicode/errorcode.h" |
| #include "unicode/normlzr.h" |
| #include "unicode/uniset.h" |
| #include "unicode/usetiter.h" |
| #include "unicode/schriter.h" |
| #include "unicode/utf16.h" |
| #include "cstring.h" |
| #include "normalizer2impl.h" |
| #include "tstnorm.h" |
| |
| #define ARRAY_LENGTH(array) UPRV_LENGTHOF(array) |
| |
| #define CASE(id,test) case id: \ |
| name = #test; \ |
| if (exec) { \ |
| logln(#test "---"); \ |
| logln((UnicodeString)""); \ |
| test(); \ |
| } \ |
| break |
| |
| static UErrorCode status = U_ZERO_ERROR; |
| |
| void BasicNormalizerTest::runIndexedTest(int32_t index, UBool exec, |
| const char* &name, char* /*par*/) { |
| switch (index) { |
| CASE(0,TestDecomp); |
| CASE(1,TestCompatDecomp); |
| CASE(2,TestCanonCompose); |
| CASE(3,TestCompatCompose); |
| CASE(4,TestPrevious); |
| CASE(5,TestHangulDecomp); |
| CASE(6,TestHangulCompose); |
| CASE(7,TestTibetan); |
| CASE(8,TestCompositionExclusion); |
| CASE(9,TestZeroIndex); |
| CASE(10,TestVerisign); |
| CASE(11,TestPreviousNext); |
| CASE(12,TestNormalizerAPI); |
| CASE(13,TestConcatenate); |
| CASE(14,FindFoldFCDExceptions); |
| CASE(15,TestCompare); |
| CASE(16,TestSkippable); |
| #if !UCONFIG_NO_FILE_IO && !UCONFIG_NO_LEGACY_CONVERSION |
| CASE(17,TestCustomComp); |
| CASE(18,TestCustomFCC); |
| #endif |
| CASE(19,TestFilteredNormalizer2Coverage); |
| default: name = ""; break; |
| } |
| } |
| |
| /** |
| * Convert Java-style strings with \u Unicode escapes into UnicodeString objects |
| */ |
| static UnicodeString str(const char *input) |
| { |
| UnicodeString str(input, ""); // Invariant conversion |
| return str.unescape(); |
| } |
| |
| |
| BasicNormalizerTest::BasicNormalizerTest() |
| { |
| // canonTest |
| // Input Decomposed Composed |
| |
| canonTests[0][0] = str("cat"); canonTests[0][1] = str("cat"); canonTests[0][2] = str("cat"); |
| |
| canonTests[1][0] = str("\\u00e0ardvark"); canonTests[1][1] = str("a\\u0300ardvark"); canonTests[1][2] = str("\\u00e0ardvark"); |
| |
| canonTests[2][0] = str("\\u1e0a"); canonTests[2][1] = str("D\\u0307"); canonTests[2][2] = str("\\u1e0a"); // D-dot_above |
| |
| canonTests[3][0] = str("D\\u0307"); canonTests[3][1] = str("D\\u0307"); canonTests[3][2] = str("\\u1e0a"); // D dot_above |
| |
| canonTests[4][0] = str("\\u1e0c\\u0307"); canonTests[4][1] = str("D\\u0323\\u0307"); canonTests[4][2] = str("\\u1e0c\\u0307"); // D-dot_below dot_above |
| |
| canonTests[5][0] = str("\\u1e0a\\u0323"); canonTests[5][1] = str("D\\u0323\\u0307"); canonTests[5][2] = str("\\u1e0c\\u0307"); // D-dot_above dot_below |
| |
| canonTests[6][0] = str("D\\u0307\\u0323"); canonTests[6][1] = str("D\\u0323\\u0307"); canonTests[6][2] = str("\\u1e0c\\u0307"); // D dot_below dot_above |
| |
| canonTests[7][0] = str("\\u1e10\\u0307\\u0323"); canonTests[7][1] = str("D\\u0327\\u0323\\u0307"); canonTests[7][2] = str("\\u1e10\\u0323\\u0307"); // D dot_below cedilla dot_above |
| |
| canonTests[8][0] = str("D\\u0307\\u0328\\u0323"); canonTests[8][1] = str("D\\u0328\\u0323\\u0307"); canonTests[8][2] = str("\\u1e0c\\u0328\\u0307"); // D dot_above ogonek dot_below |
| |
| canonTests[9][0] = str("\\u1E14"); canonTests[9][1] = str("E\\u0304\\u0300"); canonTests[9][2] = str("\\u1E14"); // E-macron-grave |
| |
| canonTests[10][0] = str("\\u0112\\u0300"); canonTests[10][1] = str("E\\u0304\\u0300"); canonTests[10][2] = str("\\u1E14"); // E-macron + grave |
| |
| canonTests[11][0] = str("\\u00c8\\u0304"); canonTests[11][1] = str("E\\u0300\\u0304"); canonTests[11][2] = str("\\u00c8\\u0304"); // E-grave + macron |
| |
| canonTests[12][0] = str("\\u212b"); canonTests[12][1] = str("A\\u030a"); canonTests[12][2] = str("\\u00c5"); // angstrom_sign |
| |
| canonTests[13][0] = str("\\u00c5"); canonTests[13][1] = str("A\\u030a"); canonTests[13][2] = str("\\u00c5"); // A-ring |
| |
| canonTests[14][0] = str("\\u00C4ffin"); canonTests[14][1] = str("A\\u0308ffin"); canonTests[14][2] = str("\\u00C4ffin"); |
| |
| canonTests[15][0] = str("\\u00C4\\uFB03n"); canonTests[15][1] = str("A\\u0308\\uFB03n"); canonTests[15][2] = str("\\u00C4\\uFB03n"); |
| |
| canonTests[16][0] = str("Henry IV"); canonTests[16][1] = str("Henry IV"); canonTests[16][2] = str("Henry IV"); |
| |
| canonTests[17][0] = str("Henry \\u2163"); canonTests[17][1] = str("Henry \\u2163"); canonTests[17][2] = str("Henry \\u2163"); |
| |
| canonTests[18][0] = str("\\u30AC"); canonTests[18][1] = str("\\u30AB\\u3099"); canonTests[18][2] = str("\\u30AC"); // ga (Katakana) |
| |
| canonTests[19][0] = str("\\u30AB\\u3099"); canonTests[19][1] = str("\\u30AB\\u3099"); canonTests[19][2] = str("\\u30AC"); // ka + ten |
| |
| canonTests[20][0] = str("\\uFF76\\uFF9E"); canonTests[20][1] = str("\\uFF76\\uFF9E"); canonTests[20][2] = str("\\uFF76\\uFF9E"); // hw_ka + hw_ten |
| |
| canonTests[21][0] = str("\\u30AB\\uFF9E"); canonTests[21][1] = str("\\u30AB\\uFF9E"); canonTests[21][2] = str("\\u30AB\\uFF9E"); // ka + hw_ten |
| |
| canonTests[22][0] = str("\\uFF76\\u3099"); canonTests[22][1] = str("\\uFF76\\u3099"); canonTests[22][2] = str("\\uFF76\\u3099"); // hw_ka + ten |
| |
| canonTests[23][0] = str("A\\u0300\\u0316"); canonTests[23][1] = str("A\\u0316\\u0300"); canonTests[23][2] = str("\\u00C0\\u0316"); |
| |
| /* compatTest */ |
| // Input Decomposed Composed |
| compatTests[0][0] = str("cat"); compatTests[0][1] = str("cat"); compatTests[0][2] = str("cat") ; |
| |
| compatTests[1][0] = str("\\uFB4f"); compatTests[1][1] = str("\\u05D0\\u05DC"); compatTests[1][2] = str("\\u05D0\\u05DC"); // Alef-Lamed vs. Alef, Lamed |
| |
| compatTests[2][0] = str("\\u00C4ffin"); compatTests[2][1] = str("A\\u0308ffin"); compatTests[2][2] = str("\\u00C4ffin") ; |
| |
| compatTests[3][0] = str("\\u00C4\\uFB03n"); compatTests[3][1] = str("A\\u0308ffin"); compatTests[3][2] = str("\\u00C4ffin") ; // ffi ligature -> f + f + i |
| |
| compatTests[4][0] = str("Henry IV"); compatTests[4][1] = str("Henry IV"); compatTests[4][2] = str("Henry IV") ; |
| |
| compatTests[5][0] = str("Henry \\u2163"); compatTests[5][1] = str("Henry IV"); compatTests[5][2] = str("Henry IV") ; |
| |
| compatTests[6][0] = str("\\u30AC"); compatTests[6][1] = str("\\u30AB\\u3099"); compatTests[6][2] = str("\\u30AC") ; // ga (Katakana) |
| |
| compatTests[7][0] = str("\\u30AB\\u3099"); compatTests[7][1] = str("\\u30AB\\u3099"); compatTests[7][2] = str("\\u30AC") ; // ka + ten |
| |
| compatTests[8][0] = str("\\uFF76\\u3099"); compatTests[8][1] = str("\\u30AB\\u3099"); compatTests[8][2] = str("\\u30AC") ; // hw_ka + ten |
| |
| /* These two are broken in Unicode 2.1.2 but fixed in 2.1.5 and later */ |
| compatTests[9][0] = str("\\uFF76\\uFF9E"); compatTests[9][1] = str("\\u30AB\\u3099"); compatTests[9][2] = str("\\u30AC") ; // hw_ka + hw_ten |
| |
| compatTests[10][0] = str("\\u30AB\\uFF9E"); compatTests[10][1] = str("\\u30AB\\u3099"); compatTests[10][2] = str("\\u30AC") ; // ka + hw_ten |
| |
| /* Hangul Canonical */ |
| // Input Decomposed Composed |
| hangulCanon[0][0] = str("\\ud4db"); hangulCanon[0][1] = str("\\u1111\\u1171\\u11b6"); hangulCanon[0][2] = str("\\ud4db") ; |
| |
| hangulCanon[1][0] = str("\\u1111\\u1171\\u11b6"), hangulCanon[1][1] = str("\\u1111\\u1171\\u11b6"), hangulCanon[1][2] = str("\\ud4db"); |
| } |
| |
| BasicNormalizerTest::~BasicNormalizerTest() |
| { |
| } |
| |
| void BasicNormalizerTest::TestPrevious() |
| { |
| Normalizer* norm = new Normalizer("", UNORM_NFD); |
| |
| logln("testing decomp..."); |
| uint32_t i; |
| for (i = 0; i < ARRAY_LENGTH(canonTests); i++) { |
| backAndForth(norm, canonTests[i][0]); |
| } |
| |
| logln("testing compose..."); |
| norm->setMode(UNORM_NFC); |
| for (i = 0; i < ARRAY_LENGTH(canonTests); i++) { |
| backAndForth(norm, canonTests[i][0]); |
| } |
| |
| delete norm; |
| } |
| |
| void BasicNormalizerTest::TestDecomp() |
| { |
| Normalizer* norm = new Normalizer("", UNORM_NFD); |
| iterateTest(norm, canonTests, ARRAY_LENGTH(canonTests), 1); |
| staticTest(UNORM_NFD, 0, canonTests, ARRAY_LENGTH(canonTests), 1); |
| delete norm; |
| } |
| |
| void BasicNormalizerTest::TestCompatDecomp() |
| { |
| Normalizer* norm = new Normalizer("", UNORM_NFKD); |
| iterateTest(norm, compatTests, ARRAY_LENGTH(compatTests), 1); |
| |
| staticTest(UNORM_NFKD, 0, |
| compatTests, ARRAY_LENGTH(compatTests), 1); |
| delete norm; |
| } |
| |
| void BasicNormalizerTest::TestCanonCompose() |
| { |
| Normalizer* norm = new Normalizer("", UNORM_NFC); |
| iterateTest(norm, canonTests, ARRAY_LENGTH(canonTests), 2); |
| |
| staticTest(UNORM_NFC, 0, canonTests, |
| ARRAY_LENGTH(canonTests), 2); |
| delete norm; |
| } |
| |
| void BasicNormalizerTest::TestCompatCompose() |
| { |
| Normalizer* norm = new Normalizer("", UNORM_NFKC); |
| iterateTest(norm, compatTests, ARRAY_LENGTH(compatTests), 2); |
| |
| staticTest(UNORM_NFKC, 0, |
| compatTests, ARRAY_LENGTH(compatTests), 2); |
| delete norm; |
| } |
| |
| |
| //------------------------------------------------------------------------------- |
| |
| void BasicNormalizerTest::TestHangulCompose() |
| { |
| // Make sure that the static composition methods work |
| logln("Canonical composition..."); |
| staticTest(UNORM_NFC, 0, hangulCanon, ARRAY_LENGTH(hangulCanon), 2); |
| logln("Compatibility composition..."); |
| |
| // Now try iterative composition.... |
| logln("Static composition..."); |
| Normalizer* norm = new Normalizer("", UNORM_NFC); |
| iterateTest(norm, hangulCanon, ARRAY_LENGTH(hangulCanon), 2); |
| norm->setMode(UNORM_NFKC); |
| |
| // And finally, make sure you can do it in reverse too |
| logln("Reverse iteration..."); |
| norm->setMode(UNORM_NFC); |
| for (uint32_t i = 0; i < ARRAY_LENGTH(hangulCanon); i++) { |
| backAndForth(norm, hangulCanon[i][0]); |
| } |
| delete norm; |
| } |
| |
| void BasicNormalizerTest::TestHangulDecomp() |
| { |
| // Make sure that the static decomposition methods work |
| logln("Canonical decomposition..."); |
| staticTest(UNORM_NFD, 0, hangulCanon, ARRAY_LENGTH(hangulCanon), 1); |
| logln("Compatibility decomposition..."); |
| |
| // Now the iterative decomposition methods... |
| logln("Iterative decomposition..."); |
| Normalizer* norm = new Normalizer("", UNORM_NFD); |
| iterateTest(norm, hangulCanon, ARRAY_LENGTH(hangulCanon), 1); |
| norm->setMode(UNORM_NFKD); |
| |
| // And finally, make sure you can do it in reverse too |
| logln("Reverse iteration..."); |
| norm->setMode(UNORM_NFD); |
| for (uint32_t i = 0; i < ARRAY_LENGTH(hangulCanon); i++) { |
| backAndForth(norm, hangulCanon[i][0]); |
| } |
| delete norm; |
| } |
| |
| /** |
| * The Tibetan vowel sign AA, 0f71, was messed up prior to Unicode version 2.1.9. |
| */ |
| void BasicNormalizerTest::TestTibetan(void) { |
| UnicodeString decomp[1][3]; |
| decomp[0][0] = str("\\u0f77"); |
| decomp[0][1] = str("\\u0f77"); |
| decomp[0][2] = str("\\u0fb2\\u0f71\\u0f80"); |
| |
| UnicodeString compose[1][3]; |
| compose[0][0] = str("\\u0fb2\\u0f71\\u0f80"); |
| compose[0][1] = str("\\u0fb2\\u0f71\\u0f80"); |
| compose[0][2] = str("\\u0fb2\\u0f71\\u0f80"); |
| |
| staticTest(UNORM_NFD, 0, decomp, ARRAY_LENGTH(decomp), 1); |
| staticTest(UNORM_NFKD, 0, decomp, ARRAY_LENGTH(decomp), 2); |
| staticTest(UNORM_NFC, 0, compose, ARRAY_LENGTH(compose), 1); |
| staticTest(UNORM_NFKC, 0, compose, ARRAY_LENGTH(compose), 2); |
| } |
| |
| /** |
| * Make sure characters in the CompositionExclusion.txt list do not get |
| * composed to. |
| */ |
| void BasicNormalizerTest::TestCompositionExclusion(void) { |
| // This list is generated from CompositionExclusion.txt. |
| // Update whenever the normalizer tables are updated. Note |
| // that we test all characters listed, even those that can be |
| // derived from the Unicode DB and are therefore commented |
| // out. |
| // ### TODO read composition exclusion from source/data/unidata file |
| // and test against that |
| UnicodeString EXCLUDED = str( |
| "\\u0340\\u0341\\u0343\\u0344\\u0374\\u037E\\u0387\\u0958" |
| "\\u0959\\u095A\\u095B\\u095C\\u095D\\u095E\\u095F\\u09DC" |
| "\\u09DD\\u09DF\\u0A33\\u0A36\\u0A59\\u0A5A\\u0A5B\\u0A5E" |
| "\\u0B5C\\u0B5D\\u0F43\\u0F4D\\u0F52\\u0F57\\u0F5C\\u0F69" |
| "\\u0F73\\u0F75\\u0F76\\u0F78\\u0F81\\u0F93\\u0F9D\\u0FA2" |
| "\\u0FA7\\u0FAC\\u0FB9\\u1F71\\u1F73\\u1F75\\u1F77\\u1F79" |
| "\\u1F7B\\u1F7D\\u1FBB\\u1FBE\\u1FC9\\u1FCB\\u1FD3\\u1FDB" |
| "\\u1FE3\\u1FEB\\u1FEE\\u1FEF\\u1FF9\\u1FFB\\u1FFD\\u2000" |
| "\\u2001\\u2126\\u212A\\u212B\\u2329\\u232A\\uF900\\uFA10" |
| "\\uFA12\\uFA15\\uFA20\\uFA22\\uFA25\\uFA26\\uFA2A\\uFB1F" |
| "\\uFB2A\\uFB2B\\uFB2C\\uFB2D\\uFB2E\\uFB2F\\uFB30\\uFB31" |
| "\\uFB32\\uFB33\\uFB34\\uFB35\\uFB36\\uFB38\\uFB39\\uFB3A" |
| "\\uFB3B\\uFB3C\\uFB3E\\uFB40\\uFB41\\uFB43\\uFB44\\uFB46" |
| "\\uFB47\\uFB48\\uFB49\\uFB4A\\uFB4B\\uFB4C\\uFB4D\\uFB4E" |
| ); |
| for (int32_t i=0; i<EXCLUDED.length(); ++i) { |
| UnicodeString a(EXCLUDED.charAt(i)); |
| UnicodeString b; |
| UnicodeString c; |
| Normalizer::normalize(a, UNORM_NFKD, 0, b, status); |
| Normalizer::normalize(b, UNORM_NFC, 0, c, status); |
| if (c == a) { |
| errln("FAIL: " + hex(a) + " x DECOMP_COMPAT => " + |
| hex(b) + " x COMPOSE => " + |
| hex(c)); |
| } else if (verbose) { |
| logln("Ok: " + hex(a) + " x DECOMP_COMPAT => " + |
| hex(b) + " x COMPOSE => " + |
| hex(c)); |
| } |
| } |
| } |
| |
| /** |
| * Test for a problem that showed up just before ICU 1.6 release |
| * having to do with combining characters with an index of zero. |
| * Such characters do not participate in any canonical |
| * decompositions. However, having an index of zero means that |
| * they all share one typeMask[] entry, that is, they all have to |
| * map to the same canonical class, which is not the case, in |
| * reality. |
| */ |
| void BasicNormalizerTest::TestZeroIndex(void) { |
| const char* DATA[] = { |
| // Expect col1 x COMPOSE_COMPAT => col2 |
| // Expect col2 x DECOMP => col3 |
| "A\\u0316\\u0300", "\\u00C0\\u0316", "A\\u0316\\u0300", |
| "A\\u0300\\u0316", "\\u00C0\\u0316", "A\\u0316\\u0300", |
| "A\\u0327\\u0300", "\\u00C0\\u0327", "A\\u0327\\u0300", |
| "c\\u0321\\u0327", "c\\u0321\\u0327", "c\\u0321\\u0327", |
| "c\\u0327\\u0321", "\\u00E7\\u0321", "c\\u0327\\u0321", |
| }; |
| int32_t DATA_length = (int32_t)(sizeof(DATA) / sizeof(DATA[0])); |
| |
| for (int32_t i=0; i<DATA_length; i+=3) { |
| UErrorCode status = U_ZERO_ERROR; |
| UnicodeString a(DATA[i], ""); |
| a = a.unescape(); |
| UnicodeString b; |
| Normalizer::normalize(a, UNORM_NFKC, 0, b, status); |
| if (U_FAILURE(status)) { |
| dataerrln("Error calling normalize UNORM_NFKC: %s", u_errorName(status)); |
| } else { |
| UnicodeString exp(DATA[i+1], ""); |
| exp = exp.unescape(); |
| if (b == exp) { |
| logln((UnicodeString)"Ok: " + hex(a) + " x COMPOSE_COMPAT => " + hex(b)); |
| } else { |
| errln((UnicodeString)"FAIL: " + hex(a) + " x COMPOSE_COMPAT => " + hex(b) + |
| ", expect " + hex(exp)); |
| } |
| } |
| Normalizer::normalize(b, UNORM_NFD, 0, a, status); |
| if (U_FAILURE(status)) { |
| dataerrln("Error calling normalize UNORM_NFD: %s", u_errorName(status)); |
| } else { |
| UnicodeString exp = UnicodeString(DATA[i+2], "").unescape(); |
| if (a == exp) { |
| logln((UnicodeString)"Ok: " + hex(b) + " x DECOMP => " + hex(a)); |
| } else { |
| errln((UnicodeString)"FAIL: " + hex(b) + " x DECOMP => " + hex(a) + |
| ", expect " + hex(exp)); |
| } |
| } |
| } |
| } |
| |
| /** |
| * Run a few specific cases that are failing for Verisign. |
| */ |
| void BasicNormalizerTest::TestVerisign(void) { |
| /* |
| > Their input: |
| > 05B8 05B9 05B1 0591 05C3 05B0 05AC 059F |
| > Their output (supposedly from ICU): |
| > 05B8 05B1 05B9 0591 05C3 05B0 05AC 059F |
| > My output from charlint: |
| > 05B1 05B8 05B9 0591 05C3 05B0 05AC 059F |
| |
| 05B8 05B9 05B1 0591 05C3 05B0 05AC 059F => 05B1 05B8 05B9 0591 05C3 05B0 |
| 05AC 059F |
| |
| U+05B8 18 E HEBREW POINT QAMATS |
| U+05B9 19 F HEBREW POINT HOLAM |
| U+05B1 11 HEBREW POINT HATAF SEGOL |
| U+0591 220 HEBREW ACCENT ETNAHTA |
| U+05C3 0 HEBREW PUNCTUATION SOF PASUQ |
| U+05B0 10 HEBREW POINT SHEVA |
| U+05AC 230 HEBREW ACCENT ILUY |
| U+059F 230 HEBREW ACCENT QARNEY PARA |
| |
| U+05B1 11 HEBREW POINT HATAF SEGOL |
| U+05B8 18 HEBREW POINT QAMATS |
| U+05B9 19 HEBREW POINT HOLAM |
| U+0591 220 HEBREW ACCENT ETNAHTA |
| U+05C3 0 HEBREW PUNCTUATION SOF PASUQ |
| U+05B0 10 HEBREW POINT SHEVA |
| U+05AC 230 HEBREW ACCENT ILUY |
| U+059F 230 HEBREW ACCENT QARNEY PARA |
| |
| Wrong result: |
| U+05B8 18 HEBREW POINT QAMATS |
| U+05B1 11 HEBREW POINT HATAF SEGOL |
| U+05B9 19 HEBREW POINT HOLAM |
| U+0591 220 HEBREW ACCENT ETNAHTA |
| U+05C3 0 HEBREW PUNCTUATION SOF PASUQ |
| U+05B0 10 HEBREW POINT SHEVA |
| U+05AC 230 HEBREW ACCENT ILUY |
| U+059F 230 HEBREW ACCENT QARNEY PARA |
| |
| |
| > Their input: |
| >0592 05B7 05BC 05A5 05B0 05C0 05C4 05AD |
| >Their output (supposedly from ICU): |
| >0592 05B0 05B7 05BC 05A5 05C0 05AD 05C4 |
| >My output from charlint: |
| >05B0 05B7 05BC 05A5 0592 05C0 05AD 05C4 |
| |
| 0592 05B7 05BC 05A5 05B0 05C0 05C4 05AD => 05B0 05B7 05BC 05A5 0592 05C0 |
| 05AD 05C4 |
| |
| U+0592 230 HEBREW ACCENT SEGOL |
| U+05B7 17 HEBREW POINT PATAH |
| U+05BC 21 HEBREW POINT DAGESH OR MAPIQ |
| U+05A5 220 HEBREW ACCENT MERKHA |
| U+05B0 10 HEBREW POINT SHEVA |
| U+05C0 0 HEBREW PUNCTUATION PASEQ |
| U+05C4 230 HEBREW MARK UPPER DOT |
| U+05AD 222 HEBREW ACCENT DEHI |
| |
| U+05B0 10 HEBREW POINT SHEVA |
| U+05B7 17 HEBREW POINT PATAH |
| U+05BC 21 HEBREW POINT DAGESH OR MAPIQ |
| U+05A5 220 HEBREW ACCENT MERKHA |
| U+0592 230 HEBREW ACCENT SEGOL |
| U+05C0 0 HEBREW PUNCTUATION PASEQ |
| U+05AD 222 HEBREW ACCENT DEHI |
| U+05C4 230 HEBREW MARK UPPER DOT |
| |
| Wrong result: |
| U+0592 230 HEBREW ACCENT SEGOL |
| U+05B0 10 HEBREW POINT SHEVA |
| U+05B7 17 HEBREW POINT PATAH |
| U+05BC 21 HEBREW POINT DAGESH OR MAPIQ |
| U+05A5 220 HEBREW ACCENT MERKHA |
| U+05C0 0 HEBREW PUNCTUATION PASEQ |
| U+05AD 222 HEBREW ACCENT DEHI |
| U+05C4 230 HEBREW MARK UPPER DOT |
| */ |
| UnicodeString data[2][3]; |
| data[0][0] = str("\\u05B8\\u05B9\\u05B1\\u0591\\u05C3\\u05B0\\u05AC\\u059F"); |
| data[0][1] = str("\\u05B1\\u05B8\\u05B9\\u0591\\u05C3\\u05B0\\u05AC\\u059F"); |
| data[0][2] = str(""); |
| data[1][0] = str("\\u0592\\u05B7\\u05BC\\u05A5\\u05B0\\u05C0\\u05C4\\u05AD"); |
| data[1][1] = str("\\u05B0\\u05B7\\u05BC\\u05A5\\u0592\\u05C0\\u05AD\\u05C4"); |
| data[1][2] = str(""); |
| |
| staticTest(UNORM_NFD, 0, data, ARRAY_LENGTH(data), 1); |
| staticTest(UNORM_NFC, 0, data, ARRAY_LENGTH(data), 1); |
| } |
| |
| //------------------------------------------------------------------------ |
| // Internal utilities |
| // |
| |
| UnicodeString BasicNormalizerTest::hex(UChar ch) { |
| UnicodeString result; |
| return appendHex(ch, 4, result); |
| } |
| |
| UnicodeString BasicNormalizerTest::hex(const UnicodeString& s) { |
| UnicodeString result; |
| for (int i = 0; i < s.length(); ++i) { |
| if (i != 0) result += (UChar)0x2c/*,*/; |
| appendHex(s[i], 4, result); |
| } |
| return result; |
| } |
| |
| |
| inline static void insert(UnicodeString& dest, int pos, UChar32 ch) |
| { |
| dest.replace(pos, 0, ch); |
| } |
| |
| void BasicNormalizerTest::backAndForth(Normalizer* iter, const UnicodeString& input) |
| { |
| UChar32 ch; |
| iter->setText(input, status); |
| |
| // Run through the iterator forwards and stick it into a StringBuffer |
| UnicodeString forward; |
| for (ch = iter->first(); ch != iter->DONE; ch = iter->next()) { |
| forward += ch; |
| } |
| |
| // Now do it backwards |
| UnicodeString reverse; |
| for (ch = iter->last(); ch != iter->DONE; ch = iter->previous()) { |
| insert(reverse, 0, ch); |
| } |
| |
| if (forward != reverse) { |
| errln("Forward/reverse mismatch for input " + hex(input) |
| + ", forward: " + hex(forward) + ", backward: " + hex(reverse)); |
| } |
| } |
| |
| void BasicNormalizerTest::staticTest(UNormalizationMode mode, int options, |
| UnicodeString tests[][3], int length, |
| int outCol) |
| { |
| for (int i = 0; i < length; i++) |
| { |
| UnicodeString& input = tests[i][0]; |
| UnicodeString& expect = tests[i][outCol]; |
| |
| logln("Normalizing '" + input + "' (" + hex(input) + ")" ); |
| |
| UnicodeString output; |
| Normalizer::normalize(input, mode, options, output, status); |
| |
| if (output != expect) { |
| dataerrln(UnicodeString("ERROR: case ") + i + " normalized " + hex(input) + "\n" |
| + " expected " + hex(expect) + "\n" |
| + " static got " + hex(output) ); |
| } |
| } |
| } |
| |
| void BasicNormalizerTest::iterateTest(Normalizer* iter, |
| UnicodeString tests[][3], int length, |
| int outCol) |
| { |
| for (int i = 0; i < length; i++) |
| { |
| UnicodeString& input = tests[i][0]; |
| UnicodeString& expect = tests[i][outCol]; |
| |
| logln("Normalizing '" + input + "' (" + hex(input) + ")" ); |
| |
| iter->setText(input, status); |
| assertEqual(input, expect, iter, UnicodeString("ERROR: case ") + i + " "); |
| } |
| } |
| |
| void BasicNormalizerTest::assertEqual(const UnicodeString& input, |
| const UnicodeString& expected, |
| Normalizer* iter, |
| const UnicodeString& errPrefix) |
| { |
| UnicodeString result; |
| |
| for (UChar32 ch = iter->first(); ch != iter->DONE; ch = iter->next()) { |
| result += ch; |
| } |
| if (result != expected) { |
| dataerrln(errPrefix + "normalized " + hex(input) + "\n" |
| + " expected " + hex(expected) + "\n" |
| + " iterate got " + hex(result) ); |
| } |
| } |
| |
| // helper class for TestPreviousNext() |
| // simple UTF-32 character iterator |
| class UChar32Iterator { |
| public: |
| UChar32Iterator(const UChar32 *text, int32_t len, int32_t index) : |
| s(text), length(len), i(index) {} |
| |
| UChar32 current() { |
| if(i<length) { |
| return s[i]; |
| } else { |
| return 0xffff; |
| } |
| } |
| |
| UChar32 next() { |
| if(i<length) { |
| return s[i++]; |
| } else { |
| return 0xffff; |
| } |
| } |
| |
| UChar32 previous() { |
| if(i>0) { |
| return s[--i]; |
| } else { |
| return 0xffff; |
| } |
| } |
| |
| int32_t getIndex() { |
| return i; |
| } |
| private: |
| const UChar32 *s; |
| int32_t length, i; |
| }; |
| |
| void |
| BasicNormalizerTest::TestPreviousNext(const UChar *src, int32_t srcLength, |
| const UChar32 *expect, int32_t expectLength, |
| const int32_t *expectIndex, // its length=expectLength+1 |
| int32_t srcMiddle, int32_t expectMiddle, |
| const char *moves, |
| UNormalizationMode mode, |
| const char *name) { |
| // iterators |
| Normalizer iter(src, srcLength, mode); |
| |
| // test getStaticClassID and getDynamicClassID |
| if(iter.getDynamicClassID() != Normalizer::getStaticClassID()) { |
| errln("getStaticClassID != getDynamicClassID for Normalizer."); |
| } |
| |
| UChar32Iterator iter32(expect, expectLength, expectMiddle); |
| |
| UChar32 c1, c2; |
| char m; |
| |
| // initially set the indexes into the middle of the strings |
| iter.setIndexOnly(srcMiddle); |
| |
| // move around and compare the iteration code points with |
| // the expected ones |
| const char *move=moves; |
| while((m=*move++)!=0) { |
| if(m=='-') { |
| c1=iter.previous(); |
| c2=iter32.previous(); |
| } else if(m=='0') { |
| c1=iter.current(); |
| c2=iter32.current(); |
| } else /* m=='+' */ { |
| c1=iter.next(); |
| c2=iter32.next(); |
| } |
| |
| // compare results |
| if(c1!=c2) { |
| // copy the moves until the current (m) move, and terminate |
| char history[64]; |
| uprv_strcpy(history, moves); |
| history[move-moves]=0; |
| dataerrln("error: mismatch in Normalizer iteration (%s) at %s: " |
| "got c1=U+%04lx != expected c2=U+%04lx", |
| name, history, c1, c2); |
| break; |
| } |
| |
| // compare indexes |
| if(iter.getIndex()!=expectIndex[iter32.getIndex()]) { |
| // copy the moves until the current (m) move, and terminate |
| char history[64]; |
| uprv_strcpy(history, moves); |
| history[move-moves]=0; |
| errln("error: index mismatch in Normalizer iteration (%s) at %s: " |
| "Normalizer index %ld expected %ld\n", |
| name, history, iter.getIndex(), expectIndex[iter32.getIndex()]); |
| break; |
| } |
| } |
| } |
| |
| void |
| BasicNormalizerTest::TestPreviousNext() { |
| // src and expect strings |
| static const UChar src[]={ |
| U16_LEAD(0x2f999), U16_TRAIL(0x2f999), |
| U16_LEAD(0x1d15f), U16_TRAIL(0x1d15f), |
| 0xc4, |
| 0x1ed0 |
| }; |
| static const UChar32 expect[]={ |
| 0x831d, |
| 0x1d158, 0x1d165, |
| 0x41, 0x308, |
| 0x4f, 0x302, 0x301 |
| }; |
| |
| // expected src indexes corresponding to expect indexes |
| static const int32_t expectIndex[]={ |
| 0, |
| 2, 2, |
| 4, 4, |
| 5, 5, 5, |
| 6 // behind last character |
| }; |
| |
| // src and expect strings for regression test for j2911 |
| static const UChar src_j2911[]={ |
| U16_LEAD(0x2f999), U16_TRAIL(0x2f999), |
| 0xdd00, 0xd900, // unpaired surrogates - regression test for j2911 |
| 0xc4, |
| 0x4f, 0x302, 0x301 |
| }; |
| static const UChar32 expect_j2911[]={ |
| 0x831d, |
| 0xdd00, 0xd900, // unpaired surrogates - regression test for j2911 |
| 0xc4, |
| 0x1ed0 |
| }; |
| |
| // expected src indexes corresponding to expect indexes |
| static const int32_t expectIndex_j2911[]={ |
| 0, |
| 2, 3, |
| 4, |
| 5, |
| 8 // behind last character |
| }; |
| |
| // initial indexes into the src and expect strings |
| // for both sets of test data |
| enum { |
| SRC_MIDDLE=4, |
| EXPECT_MIDDLE=3, |
| SRC_MIDDLE_2=2, |
| EXPECT_MIDDLE_2=1 |
| }; |
| |
| // movement vector |
| // - for previous(), 0 for current(), + for next() |
| // for both sets of test data |
| static const char *const moves="0+0+0--0-0-+++0--+++++++0--------"; |
| |
| TestPreviousNext(src, UPRV_LENGTHOF(src), |
| expect, UPRV_LENGTHOF(expect), |
| expectIndex, |
| SRC_MIDDLE, EXPECT_MIDDLE, |
| moves, UNORM_NFD, "basic"); |
| |
| TestPreviousNext(src_j2911, UPRV_LENGTHOF(src_j2911), |
| expect_j2911, UPRV_LENGTHOF(expect_j2911), |
| expectIndex_j2911, |
| SRC_MIDDLE, EXPECT_MIDDLE, |
| moves, UNORM_NFKC, "j2911"); |
| |
| // try again from different "middle" indexes |
| TestPreviousNext(src, UPRV_LENGTHOF(src), |
| expect, UPRV_LENGTHOF(expect), |
| expectIndex, |
| SRC_MIDDLE_2, EXPECT_MIDDLE_2, |
| moves, UNORM_NFD, "basic_2"); |
| |
| TestPreviousNext(src_j2911, UPRV_LENGTHOF(src_j2911), |
| expect_j2911, UPRV_LENGTHOF(expect_j2911), |
| expectIndex_j2911, |
| SRC_MIDDLE_2, EXPECT_MIDDLE_2, |
| moves, UNORM_NFKC, "j2911_2"); |
| } |
| |
| void BasicNormalizerTest::TestConcatenate() { |
| static const char *const |
| cases[][4]={ |
| /* mode, left, right, result */ |
| { |
| "C", |
| "re", |
| "\\u0301sum\\u00e9", |
| "r\\u00e9sum\\u00e9" |
| }, |
| { |
| "C", |
| "a\\u1100", |
| "\\u1161bcdefghijk", |
| "a\\uac00bcdefghijk" |
| }, |
| /* ### TODO: add more interesting cases */ |
| { |
| "D", |
| "\\u03B1\\u0345", |
| "\\u0C4D\\U000110BA\\U0001D169", |
| "\\u03B1\\U0001D169\\U000110BA\\u0C4D\\u0345" |
| } |
| }; |
| |
| UnicodeString left, right, expect, result, r; |
| UErrorCode errorCode; |
| UNormalizationMode mode; |
| int32_t i; |
| |
| /* test concatenation */ |
| for(i=0; i<(int32_t)(sizeof(cases)/sizeof(cases[0])); ++i) { |
| switch(*cases[i][0]) { |
| case 'C': mode=UNORM_NFC; break; |
| case 'D': mode=UNORM_NFD; break; |
| case 'c': mode=UNORM_NFKC; break; |
| case 'd': mode=UNORM_NFKD; break; |
| default: mode=UNORM_NONE; break; |
| } |
| |
| left=UnicodeString(cases[i][1], "").unescape(); |
| right=UnicodeString(cases[i][2], "").unescape(); |
| expect=UnicodeString(cases[i][3], "").unescape(); |
| |
| //result=r=UnicodeString(); |
| errorCode=U_ZERO_ERROR; |
| |
| r=Normalizer::concatenate(left, right, result, mode, 0, errorCode); |
| if(U_FAILURE(errorCode) || /*result!=r ||*/ result!=expect) { |
| dataerrln("error in Normalizer::concatenate(), cases[] fails with "+ |
| UnicodeString(u_errorName(errorCode))+", result==expect: expected: "+ |
| hex(expect)+" =========> got: " + hex(result)); |
| } |
| } |
| |
| /* test error cases */ |
| |
| /* left.getBuffer()==result.getBuffer() */ |
| result=r=expect=UnicodeString("zz", ""); |
| errorCode=U_UNEXPECTED_TOKEN; |
| r=Normalizer::concatenate(left, right, result, mode, 0, errorCode); |
| if(errorCode!=U_UNEXPECTED_TOKEN || result!=r || !result.isBogus()) { |
| errln("error in Normalizer::concatenate(), violates UErrorCode protocol"); |
| } |
| |
| left.setToBogus(); |
| errorCode=U_ZERO_ERROR; |
| r=Normalizer::concatenate(left, right, result, mode, 0, errorCode); |
| if(errorCode!=U_ILLEGAL_ARGUMENT_ERROR || result!=r || !result.isBogus()) { |
| errln("error in Normalizer::concatenate(), does not detect left.isBogus()"); |
| } |
| } |
| |
| // reference implementation of Normalizer::compare |
| static int32_t |
| ref_norm_compare(const UnicodeString &s1, const UnicodeString &s2, uint32_t options, UErrorCode &errorCode) { |
| UnicodeString r1, r2, t1, t2; |
| int32_t normOptions=(int32_t)(options>>UNORM_COMPARE_NORM_OPTIONS_SHIFT); |
| |
| if(options&U_COMPARE_IGNORE_CASE) { |
| Normalizer::decompose(s1, FALSE, normOptions, r1, errorCode); |
| Normalizer::decompose(s2, FALSE, normOptions, r2, errorCode); |
| |
| r1.foldCase(options); |
| r2.foldCase(options); |
| } else { |
| r1=s1; |
| r2=s2; |
| } |
| |
| Normalizer::decompose(r1, FALSE, normOptions, t1, errorCode); |
| Normalizer::decompose(r2, FALSE, normOptions, t2, errorCode); |
| |
| if(options&U_COMPARE_CODE_POINT_ORDER) { |
| return t1.compareCodePointOrder(t2); |
| } else { |
| return t1.compare(t2); |
| } |
| } |
| |
| // test wrapper for Normalizer::compare, sets UNORM_INPUT_IS_FCD appropriately |
| static int32_t |
| _norm_compare(const UnicodeString &s1, const UnicodeString &s2, uint32_t options, UErrorCode &errorCode) { |
| int32_t normOptions=(int32_t)(options>>UNORM_COMPARE_NORM_OPTIONS_SHIFT); |
| |
| if( UNORM_YES==Normalizer::quickCheck(s1, UNORM_FCD, normOptions, errorCode) && |
| UNORM_YES==Normalizer::quickCheck(s2, UNORM_FCD, normOptions, errorCode)) { |
| options|=UNORM_INPUT_IS_FCD; |
| } |
| |
| return Normalizer::compare(s1, s2, options, errorCode); |
| } |
| |
| // reference implementation of UnicodeString::caseCompare |
| static int32_t |
| ref_case_compare(const UnicodeString &s1, const UnicodeString &s2, uint32_t options) { |
| UnicodeString t1, t2; |
| |
| t1=s1; |
| t2=s2; |
| |
| t1.foldCase(options); |
| t2.foldCase(options); |
| |
| if(options&U_COMPARE_CODE_POINT_ORDER) { |
| return t1.compareCodePointOrder(t2); |
| } else { |
| return t1.compare(t2); |
| } |
| } |
| |
| // reduce an integer to -1/0/1 |
| static inline int32_t |
| _sign(int32_t value) { |
| if(value==0) { |
| return 0; |
| } else { |
| return (value>>31)|1; |
| } |
| } |
| |
| static const char * |
| _signString(int32_t value) { |
| if(value<0) { |
| return "<0"; |
| } else if(value==0) { |
| return "=0"; |
| } else /* value>0 */ { |
| return ">0"; |
| } |
| } |
| |
| void |
| BasicNormalizerTest::TestCompare() { |
| // test Normalizer::compare and unorm_compare (thinly wrapped by the former) |
| // by comparing it with its semantic equivalent |
| // since we trust the pieces, this is sufficient |
| |
| // test each string with itself and each other |
| // each time with all options |
| static const char *const |
| strings[]={ |
| // some cases from NormalizationTest.txt |
| // 0..3 |
| "D\\u031B\\u0307\\u0323", |
| "\\u1E0C\\u031B\\u0307", |
| "D\\u031B\\u0323\\u0307", |
| "d\\u031B\\u0323\\u0307", |
| |
| // 4..6 |
| "\\u00E4", |
| "a\\u0308", |
| "A\\u0308", |
| |
| // Angstrom sign = A ring |
| // 7..10 |
| "\\u212B", |
| "\\u00C5", |
| "A\\u030A", |
| "a\\u030A", |
| |
| // 11.14 |
| "a\\u059A\\u0316\\u302A\\u032Fb", |
| "a\\u302A\\u0316\\u032F\\u059Ab", |
| "a\\u302A\\u0316\\u032F\\u059Ab", |
| "A\\u059A\\u0316\\u302A\\u032Fb", |
| |
| // from ICU case folding tests |
| // 15..20 |
| "A\\u00df\\u00b5\\ufb03\\U0001040c\\u0131", |
| "ass\\u03bcffi\\U00010434i", |
| "\\u0061\\u0042\\u0131\\u03a3\\u00df\\ufb03\\ud93f\\udfff", |
| "\\u0041\\u0062\\u0069\\u03c3\\u0073\\u0053\\u0046\\u0066\\u0049\\ud93f\\udfff", |
| "\\u0041\\u0062\\u0131\\u03c3\\u0053\\u0073\\u0066\\u0046\\u0069\\ud93f\\udfff", |
| "\\u0041\\u0062\\u0069\\u03c3\\u0073\\u0053\\u0046\\u0066\\u0049\\ud93f\\udffd", |
| |
| // U+d800 U+10001 see implementation comment in unorm_cmpEquivFold |
| // vs. U+10000 at bottom - code point order |
| // 21..22 |
| "\\ud800\\ud800\\udc01", |
| "\\ud800\\udc00", |
| |
| // other code point order tests from ustrtest.cpp |
| // 23..31 |
| "\\u20ac\\ud801", |
| "\\u20ac\\ud800\\udc00", |
| "\\ud800", |
| "\\ud800\\uff61", |
| "\\udfff", |
| "\\uff61\\udfff", |
| "\\uff61\\ud800\\udc02", |
| "\\ud800\\udc02", |
| "\\ud84d\\udc56", |
| |
| // long strings, see cnormtst.c/TestNormCoverage() |
| // equivalent if case-insensitive |
| // 32..33 |
| "\\uAD8B\\uAD8B\\uAD8B\\uAD8B" |
| "\\U0001d15e\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d15e\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d15e\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "aaaaaaaaaaaaaaaaaazzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz" |
| "bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb" |
| "ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc" |
| "ddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddd" |
| "\\uAD8B\\uAD8B\\uAD8B\\uAD8B" |
| "d\\u031B\\u0307\\u0323", |
| |
| "\\u1100\\u116f\\u11aa\\uAD8B\\uAD8B\\u1100\\u116f\\u11aa" |
| "\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d15e\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "\\U0001d15e\\U0001d157\\U0001d165\\U0001d15e\\U0001d15e\\U0001d15e\\U0001d15e" |
| "aaaaaaaaaaAAAAAAAAZZZZZZZZZZZZZZZZzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz" |
| "bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb" |
| "ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc" |
| "ddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddd" |
| "\\u1100\\u116f\\u11aa\\uAD8B\\uAD8B\\u1100\\u116f\\u11aa" |
| "\\u1E0C\\u031B\\u0307", |
| |
| // some strings that may make a difference whether the compare function |
| // case-folds or decomposes first |
| // 34..41 |
| "\\u0360\\u0345\\u0334", |
| "\\u0360\\u03b9\\u0334", |
| |
| "\\u0360\\u1f80\\u0334", |
| "\\u0360\\u03b1\\u0313\\u03b9\\u0334", |
| |
| "\\u0360\\u1ffc\\u0334", |
| "\\u0360\\u03c9\\u03b9\\u0334", |
| |
| "a\\u0360\\u0345\\u0360\\u0345b", |
| "a\\u0345\\u0360\\u0345\\u0360b", |
| |
| // interesting cases for canonical caseless match with turkic i handling |
| // 42..43 |
| "\\u00cc", |
| "\\u0069\\u0300", |
| |
| // strings with post-Unicode 3.2 normalization or normalization corrections |
| // 44..45 |
| "\\u00e4\\u193b\\U0002f868", |
| "\\u0061\\u193b\\u0308\\u36fc", |
| |
| // empty string |
| // 46 |
| "" |
| }; |
| |
| UnicodeString s[100]; // at least as many items as in strings[] ! |
| |
| // all combinations of options |
| // UNORM_INPUT_IS_FCD is set automatically if both input strings fulfill FCD conditions |
| // set UNORM_UNICODE_3_2 in one additional combination |
| static const struct { |
| uint32_t options; |
| const char *name; |
| } opt[]={ |
| { 0, "default" }, |
| { U_COMPARE_CODE_POINT_ORDER, "c.p. order" }, |
| { U_COMPARE_IGNORE_CASE, "ignore case" }, |
| { U_COMPARE_CODE_POINT_ORDER|U_COMPARE_IGNORE_CASE, "c.p. order & ignore case" }, |
| { U_COMPARE_IGNORE_CASE|U_FOLD_CASE_EXCLUDE_SPECIAL_I, "ignore case & special i" }, |
| { U_COMPARE_CODE_POINT_ORDER|U_COMPARE_IGNORE_CASE|U_FOLD_CASE_EXCLUDE_SPECIAL_I, "c.p. order & ignore case & special i" }, |
| { UNORM_UNICODE_3_2<<UNORM_COMPARE_NORM_OPTIONS_SHIFT, "Unicode 3.2" } |
| }; |
| |
| int32_t i, j, k, count=UPRV_LENGTHOF(strings); |
| int32_t result, refResult; |
| |
| UErrorCode errorCode; |
| |
| // create the UnicodeStrings |
| for(i=0; i<count; ++i) { |
| s[i]=UnicodeString(strings[i], "").unescape(); |
| } |
| |
| // test them each with each other |
| for(i=0; i<count; ++i) { |
| for(j=i; j<count; ++j) { |
| for(k=0; k<UPRV_LENGTHOF(opt); ++k) { |
| // test Normalizer::compare |
| errorCode=U_ZERO_ERROR; |
| result=_norm_compare(s[i], s[j], opt[k].options, errorCode); |
| refResult=ref_norm_compare(s[i], s[j], opt[k].options, errorCode); |
| if(_sign(result)!=_sign(refResult)) { |
| errln("Normalizer::compare(%d, %d, %s)%s should be %s %s", |
| i, j, opt[k].name, _signString(result), _signString(refResult), |
| U_SUCCESS(errorCode) ? "" : u_errorName(errorCode)); |
| } |
| |
| // test UnicodeString::caseCompare - same internal implementation function |
| if(opt[k].options&U_COMPARE_IGNORE_CASE) { |
| errorCode=U_ZERO_ERROR; |
| result=s[i].caseCompare(s[j], opt[k].options); |
| refResult=ref_case_compare(s[i], s[j], opt[k].options); |
| if(_sign(result)!=_sign(refResult)) { |
| errln("UniStr::caseCompare(%d, %d, %s)%s should be %s %s", |
| i, j, opt[k].name, _signString(result), _signString(refResult), |
| U_SUCCESS(errorCode) ? "" : u_errorName(errorCode)); |
| } |
| } |
| } |
| } |
| } |
| |
| // test cases with i and I to make sure Turkic works |
| static const UChar iI[]={ 0x49, 0x69, 0x130, 0x131 }; |
| UnicodeSet iSet, set; |
| |
| UnicodeString s1, s2; |
| |
| const Normalizer2Impl *nfcImpl=Normalizer2Factory::getNFCImpl(errorCode); |
| if(U_FAILURE(errorCode) || !nfcImpl->ensureCanonIterData(errorCode)) { |
| dataerrln("Normalizer2Factory::getNFCImpl().ensureCanonIterData() failed: %s", |
| u_errorName(errorCode)); |
| return; |
| } |
| |
| // collect all sets into one for contiguous output |
| for(i=0; i<UPRV_LENGTHOF(iI); ++i) { |
| if(nfcImpl->getCanonStartSet(iI[i], iSet)) { |
| set.addAll(iSet); |
| } |
| } |
| |
| // test all of these precomposed characters |
| const Normalizer2 *nfcNorm2=Normalizer2::getNFCInstance(errorCode); |
| UnicodeSetIterator it(set); |
| while(it.next() && !it.isString()) { |
| UChar32 c=it.getCodepoint(); |
| if(!nfcNorm2->getDecomposition(c, s2)) { |
| dataerrln("NFC.getDecomposition(i-composite U+%04lx) failed", (long)c); |
| return; |
| } |
| |
| s1.setTo(c); |
| for(k=0; k<UPRV_LENGTHOF(opt); ++k) { |
| // test Normalizer::compare |
| errorCode=U_ZERO_ERROR; |
| result=_norm_compare(s1, s2, opt[k].options, errorCode); |
| refResult=ref_norm_compare(s1, s2, opt[k].options, errorCode); |
| if(_sign(result)!=_sign(refResult)) { |
| errln("Normalizer::compare(U+%04x with its NFD, %s)%s should be %s %s", |
| c, opt[k].name, _signString(result), _signString(refResult), |
| U_SUCCESS(errorCode) ? "" : u_errorName(errorCode)); |
| } |
| |
| // test UnicodeString::caseCompare - same internal implementation function |
| if(opt[k].options&U_COMPARE_IGNORE_CASE) { |
| errorCode=U_ZERO_ERROR; |
| result=s1.caseCompare(s2, opt[k].options); |
| refResult=ref_case_compare(s1, s2, opt[k].options); |
| if(_sign(result)!=_sign(refResult)) { |
| errln("UniStr::caseCompare(U+%04x with its NFD, %s)%s should be %s %s", |
| c, opt[k].name, _signString(result), _signString(refResult), |
| U_SUCCESS(errorCode) ? "" : u_errorName(errorCode)); |
| } |
| } |
| } |
| } |
| |
| // test getDecomposition() for some characters that do not decompose |
| if( nfcNorm2->getDecomposition(0x20, s2) || |
| nfcNorm2->getDecomposition(0x4e00, s2) || |
| nfcNorm2->getDecomposition(0x20002, s2) |
| ) { |
| errln("NFC.getDecomposition() returns TRUE for characters which do not have decompositions"); |
| } |
| |
| // test getRawDecomposition() for some characters that do not decompose |
| if( nfcNorm2->getRawDecomposition(0x20, s2) || |
| nfcNorm2->getRawDecomposition(0x4e00, s2) || |
| nfcNorm2->getRawDecomposition(0x20002, s2) |
| ) { |
| errln("NFC.getRawDecomposition() returns TRUE for characters which do not have decompositions"); |
| } |
| |
| // test composePair() for some pairs of characters that do not compose |
| if( nfcNorm2->composePair(0x20, 0x301)>=0 || |
| nfcNorm2->composePair(0x61, 0x305)>=0 || |
| nfcNorm2->composePair(0x1100, 0x1160)>=0 || |
| nfcNorm2->composePair(0xac00, 0x11a7)>=0 |
| ) { |
| errln("NFC.composePair() incorrectly composes some pairs of characters"); |
| } |
| |
| // test FilteredNormalizer2::getDecomposition() |
| UnicodeSet filter(UNICODE_STRING_SIMPLE("[^\\u00a0-\\u00ff]"), errorCode); |
| FilteredNormalizer2 fn2(*nfcNorm2, filter); |
| if( fn2.getDecomposition(0xe4, s1) || !fn2.getDecomposition(0x100, s2) || |
| s2.length()!=2 || s2[0]!=0x41 || s2[1]!=0x304 |
| ) { |
| errln("FilteredNormalizer2(NFC, ^A0-FF).getDecomposition() failed"); |
| } |
| |
| // test FilteredNormalizer2::getRawDecomposition() |
| if( fn2.getRawDecomposition(0xe4, s1) || !fn2.getRawDecomposition(0x100, s2) || |
| s2.length()!=2 || s2[0]!=0x41 || s2[1]!=0x304 |
| ) { |
| errln("FilteredNormalizer2(NFC, ^A0-FF).getRawDecomposition() failed"); |
| } |
| |
| // test FilteredNormalizer2::composePair() |
| if( 0x100!=fn2.composePair(0x41, 0x304) || |
| fn2.composePair(0xc7, 0x301)>=0 // unfiltered result: U+1E08 |
| ) { |
| errln("FilteredNormalizer2(NFC, ^A0-FF).composePair() failed"); |
| } |
| } |
| |
| // verify that case-folding does not un-FCD strings |
| int32_t |
| BasicNormalizerTest::countFoldFCDExceptions(uint32_t foldingOptions) { |
| UnicodeString s, fold, d; |
| UChar32 c; |
| int32_t count; |
| uint8_t cc, trailCC, foldCC, foldTrailCC; |
| UNormalizationCheckResult qcResult; |
| int8_t category; |
| UBool isNFD; |
| UErrorCode errorCode; |
| |
| logln("Test if case folding may un-FCD a string (folding options %04lx)", foldingOptions); |
| |
| count=0; |
| for(c=0; c<=0x10ffff; ++c) { |
| errorCode = U_ZERO_ERROR; |
| category=u_charType(c); |
| if(category==U_UNASSIGNED) { |
| continue; // skip unassigned code points |
| } |
| if(c==0xac00) { |
| c=0xd7a3; // skip Hangul - no case folding there |
| continue; |
| } |
| // skip Han blocks - no case folding there either |
| if(c==0x3400) { |
| c=0x4db5; |
| continue; |
| } |
| if(c==0x4e00) { |
| c=0x9fa5; |
| continue; |
| } |
| if(c==0x20000) { |
| c=0x2a6d6; |
| continue; |
| } |
| |
| s.setTo(c); |
| |
| // get leading and trailing cc for c |
| Normalizer::decompose(s, FALSE, 0, d, errorCode); |
| isNFD= s==d; |
| cc=u_getCombiningClass(d.char32At(0)); |
| trailCC=u_getCombiningClass(d.char32At(d.length()-1)); |
| |
| // get leading and trailing cc for the case-folding of c |
| s.foldCase(foldingOptions); |
| Normalizer::decompose(s, FALSE, 0, d, errorCode); |
| foldCC=u_getCombiningClass(d.char32At(0)); |
| foldTrailCC=u_getCombiningClass(d.char32At(d.length()-1)); |
| |
| qcResult=Normalizer::quickCheck(s, UNORM_FCD, errorCode); |
| |
| if (U_FAILURE(errorCode)) { |
| ++count; |
| dataerrln("U+%04lx: Failed with error %s", u_errorName(errorCode)); |
| } |
| |
| // bad: |
| // - character maps to empty string: adjacent characters may then need reordering |
| // - folding has different leading/trailing cc's, and they don't become just 0 |
| // - folding itself is not FCD |
| if( qcResult!=UNORM_YES || |
| s.isEmpty() || |
| (cc!=foldCC && foldCC!=0) || (trailCC!=foldTrailCC && foldTrailCC!=0) |
| ) { |
| ++count; |
| dataerrln("U+%04lx: case-folding may un-FCD a string (folding options %04lx)", c, foldingOptions); |
| dataerrln(" cc %02x trailCC %02x foldCC(U+%04lx) %02x foldTrailCC(U+%04lx) %02x quickCheck(folded)=%d", cc, trailCC, d.char32At(0), foldCC, d.char32At(d.length()-1), foldTrailCC, qcResult); |
| continue; |
| } |
| |
| // also bad: |
| // if a code point is in NFD but its case folding is not, then |
| // unorm_compare will also fail |
| if(isNFD && UNORM_YES!=Normalizer::quickCheck(s, UNORM_NFD, errorCode)) { |
| ++count; |
| errln("U+%04lx: case-folding un-NFDs this character (folding options %04lx)", c, foldingOptions); |
| } |
| } |
| |
| logln("There are %ld code points for which case-folding may un-FCD a string (folding options %04lx)", count, foldingOptions); |
| return count; |
| } |
| |
| void |
| BasicNormalizerTest::FindFoldFCDExceptions() { |
| int32_t count; |
| |
| count=countFoldFCDExceptions(0); |
| count+=countFoldFCDExceptions(U_FOLD_CASE_EXCLUDE_SPECIAL_I); |
| if(count>0) { |
| /* |
| * If case-folding un-FCDs any strings, then unorm_compare() must be |
| * re-implemented. |
| * It currently assumes that one can check for FCD then case-fold |
| * and then still have FCD strings for raw decomposition without reordering. |
| */ |
| dataerrln("error: There are %ld code points for which case-folding may un-FCD a string for all folding options.\n" |
| "See comment in BasicNormalizerTest::FindFoldFCDExceptions()!", count); |
| } |
| } |
| |
| static void |
| initExpectedSkippables(UnicodeSet skipSets[UNORM_MODE_COUNT], UErrorCode &errorCode) { |
| skipSets[UNORM_NFD].applyPattern( |
| UNICODE_STRING_SIMPLE("[[:NFD_QC=Yes:]&[:ccc=0:]]"), errorCode); |
| skipSets[UNORM_NFC].applyPattern( |
| UNICODE_STRING_SIMPLE("[[:NFC_QC=Yes:]&[:ccc=0:]-[:HST=LV:]]"), errorCode); |
| skipSets[UNORM_NFKD].applyPattern( |
| UNICODE_STRING_SIMPLE("[[:NFKD_QC=Yes:]&[:ccc=0:]]"), errorCode); |
| skipSets[UNORM_NFKC].applyPattern( |
| UNICODE_STRING_SIMPLE("[[:NFKC_QC=Yes:]&[:ccc=0:]-[:HST=LV:]]"), errorCode); |
| |
| // Remove from the NFC and NFKC sets all those characters that change |
| // when a back-combining character is added. |
| // First, get all of the back-combining characters and their combining classes. |
| UnicodeSet combineBack("[:NFC_QC=Maybe:]", errorCode); |
| int32_t numCombineBack=combineBack.size(); |
| int32_t *combineBackCharsAndCc=new int32_t[numCombineBack*2]; |
| UnicodeSetIterator iter(combineBack); |
| for(int32_t i=0; i<numCombineBack; ++i) { |
| iter.next(); |
| UChar32 c=iter.getCodepoint(); |
| combineBackCharsAndCc[2*i]=c; |
| combineBackCharsAndCc[2*i+1]=u_getCombiningClass(c); |
| } |
| |
| // We need not look at control codes, Han characters nor Hangul LVT syllables because they |
| // do not combine forward. LV syllables are already removed. |
| UnicodeSet notInteresting("[[:C:][:Unified_Ideograph:][:HST=LVT:]]", errorCode); |
| LocalPointer<UnicodeSet> unsure(&((UnicodeSet *)(skipSets[UNORM_NFC].clone()))->removeAll(notInteresting)); |
| // System.out.format("unsure.size()=%d\n", unsure.size()); |
| |
| // For each character about which we are unsure, see if it changes when we add |
| // one of the back-combining characters. |
| const Normalizer2 *norm2=Normalizer2::getNFCInstance(errorCode); |
| UnicodeString s; |
| iter.reset(*unsure); |
| while(iter.next()) { |
| UChar32 c=iter.getCodepoint(); |
| s.setTo(c); |
| int32_t cLength=s.length(); |
| int32_t tccc=u_getIntPropertyValue(c, UCHAR_TRAIL_CANONICAL_COMBINING_CLASS); |
| for(int32_t i=0; i<numCombineBack; ++i) { |
| // If c's decomposition ends with a character with non-zero combining class, then |
| // c can only change if it combines with a character with a non-zero combining class. |
| int32_t cc2=combineBackCharsAndCc[2*i+1]; |
| if(tccc==0 || cc2!=0) { |
| UChar32 c2=combineBackCharsAndCc[2*i]; |
| s.append(c2); |
| if(!norm2->isNormalized(s, errorCode)) { |
| // System.out.format("remove U+%04x (tccc=%d) + U+%04x (cc=%d)\n", c, tccc, c2, cc2); |
| skipSets[UNORM_NFC].remove(c); |
| skipSets[UNORM_NFKC].remove(c); |
| break; |
| } |
| s.truncate(cLength); |
| } |
| } |
| } |
| delete [] combineBackCharsAndCc; |
| } |
| |
| void |
| BasicNormalizerTest::TestSkippable() { |
| UnicodeSet diff, skipSets[UNORM_MODE_COUNT], expectSets[UNORM_MODE_COUNT]; |
| UnicodeString s, pattern; |
| |
| /* build NF*Skippable sets from runtime data */ |
| IcuTestErrorCode errorCode(*this, "TestSkippable"); |
| skipSets[UNORM_NFD].applyPattern(UNICODE_STRING_SIMPLE("[:NFD_Inert:]"), errorCode); |
| skipSets[UNORM_NFKD].applyPattern(UNICODE_STRING_SIMPLE("[:NFKD_Inert:]"), errorCode); |
| skipSets[UNORM_NFC].applyPattern(UNICODE_STRING_SIMPLE("[:NFC_Inert:]"), errorCode); |
| skipSets[UNORM_NFKC].applyPattern(UNICODE_STRING_SIMPLE("[:NFKC_Inert:]"), errorCode); |
| if(errorCode.logDataIfFailureAndReset("UnicodeSet(NF..._Inert) failed")) { |
| return; |
| } |
| |
| /* get expected sets from hardcoded patterns */ |
| initExpectedSkippables(expectSets, errorCode); |
| errorCode.assertSuccess(); |
| |
| for(int32_t i=UNORM_NONE; i<UNORM_MODE_COUNT; ++i) { |
| if(skipSets[i]!=expectSets[i]) { |
| errln("error: TestSkippable skipSets[%d]!=expectedSets[%d]\n", i, i); |
| // Note: This used to depend on hardcoded UnicodeSet patterns generated by |
| // Mark's unicodetools.com.ibm.text.UCD.NFSkippable, by |
| // running com.ibm.text.UCD.Main with the option NFSkippable. |
| // Since ICU 4.6/Unicode 6, we are generating the |
| // expectSets ourselves in initSkippables(). |
| |
| s=UNICODE_STRING_SIMPLE("skip-expect="); |
| (diff=skipSets[i]).removeAll(expectSets[i]).toPattern(pattern, TRUE); |
| s.append(pattern); |
| |
| pattern.remove(); |
| s.append(UNICODE_STRING_SIMPLE("\n\nexpect-skip=")); |
| (diff=expectSets[i]).removeAll(skipSets[i]).toPattern(pattern, TRUE); |
| s.append(pattern); |
| s.append(UNICODE_STRING_SIMPLE("\n\n")); |
| |
| errln(s); |
| } |
| } |
| } |
| |
| struct StringPair { const char *input, *expected; }; |
| |
| void |
| BasicNormalizerTest::TestCustomComp() { |
| static const StringPair pairs[]={ |
| { "\\uD801\\uE000\\uDFFE", "" }, |
| { "\\uD800\\uD801\\uE000\\uDFFE\\uDFFF", "\\uD7FF\\uFFFF" }, |
| { "\\uD800\\uD801\\uDFFE\\uDFFF", "\\uD7FF\\U000107FE\\uFFFF" }, |
| { "\\uE001\\U000110B9\\u0345\\u0308\\u0327", "\\uE002\\U000110B9\\u0327\\u0345" }, |
| { "\\uE010\\U000F0011\\uE012", "\\uE011\\uE012" }, |
| { "\\uE010\\U000F0011\\U000F0011\\uE012", "\\uE011\\U000F0010" }, |
| { "\\uE111\\u1161\\uE112\\u1162", "\\uAE4C\\u1102\\u0062\\u1162" }, |
| { "\\uFFF3\\uFFF7\\U00010036\\U00010077", "\\U00010037\\U00010037\\uFFF6\\U00010037" } |
| }; |
| IcuTestErrorCode errorCode(*this, "BasicNormalizerTest/TestCustomComp"); |
| const Normalizer2 *customNorm2= |
| Normalizer2::getInstance(loadTestData(errorCode), "testnorm", |
| UNORM2_COMPOSE, errorCode); |
| if(errorCode.logDataIfFailureAndReset("unable to load testdata/testnorm.nrm")) { |
| return; |
| } |
| for(int32_t i=0; i<UPRV_LENGTHOF(pairs); ++i) { |
| const StringPair &pair=pairs[i]; |
| UnicodeString input=UnicodeString(pair.input, -1, US_INV).unescape(); |
| UnicodeString expected=UnicodeString(pair.expected, -1, US_INV).unescape(); |
| UnicodeString result=customNorm2->normalize(input, errorCode); |
| if(result!=expected) { |
| errln("custom compose Normalizer2 did not normalize input %d as expected", i); |
| } |
| } |
| } |
| |
| void |
| BasicNormalizerTest::TestCustomFCC() { |
| static const StringPair pairs[]={ |
| { "\\uD801\\uE000\\uDFFE", "" }, |
| { "\\uD800\\uD801\\uE000\\uDFFE\\uDFFF", "\\uD7FF\\uFFFF" }, |
| { "\\uD800\\uD801\\uDFFE\\uDFFF", "\\uD7FF\\U000107FE\\uFFFF" }, |
| // The following expected result is different from CustomComp |
| // because of only-contiguous composition. |
| { "\\uE001\\U000110B9\\u0345\\u0308\\u0327", "\\uE001\\U000110B9\\u0327\\u0308\\u0345" }, |
| { "\\uE010\\U000F0011\\uE012", "\\uE011\\uE012" }, |
| { "\\uE010\\U000F0011\\U000F0011\\uE012", "\\uE011\\U000F0010" }, |
| { "\\uE111\\u1161\\uE112\\u1162", "\\uAE4C\\u1102\\u0062\\u1162" }, |
| { "\\uFFF3\\uFFF7\\U00010036\\U00010077", "\\U00010037\\U00010037\\uFFF6\\U00010037" } |
| }; |
| IcuTestErrorCode errorCode(*this, "BasicNormalizerTest/TestCustomFCC"); |
| const Normalizer2 *customNorm2= |
| Normalizer2::getInstance(loadTestData(errorCode), "testnorm", |
| UNORM2_COMPOSE_CONTIGUOUS, errorCode); |
| if(errorCode.logDataIfFailureAndReset("unable to load testdata/testnorm.nrm")) { |
| return; |
| } |
| for(int32_t i=0; i<UPRV_LENGTHOF(pairs); ++i) { |
| const StringPair &pair=pairs[i]; |
| UnicodeString input=UnicodeString(pair.input, -1, US_INV).unescape(); |
| UnicodeString expected=UnicodeString(pair.expected, -1, US_INV).unescape(); |
| UnicodeString result=customNorm2->normalize(input, errorCode); |
| if(result!=expected) { |
| errln("custom FCC Normalizer2 did not normalize input %d as expected", i); |
| } |
| } |
| } |
| |
| /* Improve code coverage of Normalizer2 */ |
| void |
| BasicNormalizerTest::TestFilteredNormalizer2Coverage() { |
| UErrorCode errorCode = U_ZERO_ERROR; |
| const Normalizer2 *nfcNorm2=Normalizer2::getNFCInstance(errorCode); |
| if (U_FAILURE(errorCode)) { |
| dataerrln("Normalizer2::getNFCInstance() call failed - %s", u_errorName(status)); |
| return; |
| } |
| UnicodeSet filter(UNICODE_STRING_SIMPLE("[^\\u00a0-\\u00ff\\u0310-\\u031f]"), errorCode); |
| FilteredNormalizer2 fn2(*nfcNorm2, filter); |
| |
| UChar32 char32 = 0x0054; |
| |
| if (fn2.isInert(char32)) { |
| errln("FilteredNormalizer2.isInert() failed."); |
| } |
| |
| if (fn2.hasBoundaryAfter(char32)) { |
| errln("FilteredNormalizer2.hasBoundaryAfter() failed."); |
| } |
| |
| UChar32 c; |
| for(c=0; c<=0x3ff; ++c) { |
| uint8_t expectedCC= filter.contains(c) ? nfcNorm2->getCombiningClass(c) : 0; |
| uint8_t cc=fn2.getCombiningClass(c); |
| if(cc!=expectedCC) { |
| errln( |
| UnicodeString("FilteredNormalizer2(NFC, ^A0-FF,310-31F).getCombiningClass(U+")+ |
| hex(c)+ |
| ")==filtered NFC.getCC()"); |
| } |
| } |
| |
| UnicodeString newString1 = UNICODE_STRING_SIMPLE("[^\\u0100-\\u01ff]"); |
| UnicodeString newString2 = UNICODE_STRING_SIMPLE("[^\\u0200-\\u02ff]"); |
| fn2.append(newString1, newString2, errorCode); |
| if (U_FAILURE(errorCode)) { |
| errln("FilteredNormalizer2.append() failed."); |
| } |
| } |
| |
| #endif /* #if !UCONFIG_NO_NORMALIZATION */ |